1245

How would you initialise a static Map in Java?

Method one: static initialiser
Method two: instance initialiser (anonymous subclass) or some other method?

What are the pros and cons of each?

Here is an example illustrating the two methods:

import java.util.HashMap;
import java.util.Map;

public class Test {
    private static final Map<Integer, String> myMap = new HashMap<>();
    static {
        myMap.put(1, "one");
        myMap.put(2, "two");
    }

    private static final Map<Integer, String> myMap2 = new HashMap<>(){
        {
            put(1, "one");
            put(2, "two");
        }
    };
}
3

43 Answers 43

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2
1

I like using the static initializer "technique" when I have a concrete realization of an abstract class that has defined an initializing constructor but no default constructor but I want my subclass to have a default constructor.

For example:

public abstract class Shape {

    public static final String COLOR_KEY = "color_key";
    public static final String OPAQUE_KEY = "opaque_key";

    private final String color;
    private final Boolean opaque;

    /**
     * Initializing constructor - note no default constructor.
     *
     * @param properties a collection of Shape properties
     */
    public Shape(Map<String, Object> properties) {
        color = ((String) properties.getOrDefault(COLOR_KEY, "black"));
        opaque = (Boolean) properties.getOrDefault(OPAQUE_KEY, false);
    }

    /**
     * Color property accessor method.
     *
     * @return the color of this Shape
     */
    public String getColor() {
        return color;
    }

    /**
     * Opaque property accessor method.
     *
     * @return true if this Shape is opaque, false otherwise
     */
    public Boolean isOpaque() {
        return opaque;
    }
}

and my concrete realization of this class -- but it wants/needs a default constructor:

public class SquareShapeImpl extends Shape {

    private static final Map<String, Object> DEFAULT_PROPS = new HashMap<>();

    static {
        DEFAULT_PROPS.put(Shape.COLOR_KEY, "yellow");
        DEFAULT_PROPS.put(Shape.OPAQUE_KEY, false);
    }

    /**
     * Default constructor -- intializes this square to be a translucent yellow
     */
    public SquareShapeImpl() {
        // the static initializer was useful here because the call to 
        // this(...) must be the first statement in this constructor
        // i.e., we can't be mucking around and creating a map here
        this(DEFAULT_PROPS);
    }

    /**
     * Initializing constructor -- create a Square with the given
     * collection of properties.
     *
     * @param props a collection of properties for this SquareShapeImpl
     */
    public SquareShapeImpl(Map<String, Object> props) {
        super(props);
    }
}

then to use this default constructor, we simply do:

public class StaticInitDemo {

    public static void main(String[] args) {

        // create a translucent, yellow square...
        Shape defaultSquare = new SquareShapeImpl();

        // etc...
    }
}
1

This one uses Apache commons-lang which will most likely be on your class path already:

Map<String, String> collect = Stream.of(
        Pair.of("hello", "world"),
        Pair.of("abc", "123"),
        Pair.of("java", "eight")
).collect(Collectors.toMap(Pair::getKey, Pair::getValue));
1

Note: This answer actually belongs to question How to directly initialize a HashMap (in a literal way)? but since that was marked as duplicate of this one at time of this writing...


Prior to Java 9 with its Map.of() (which is also limited to 10 mappings) you can extend a Map implementation of your choice, e.g.:

public class InitHashMap<K, V> extends HashMap<K, V>

re-implement HashMap's constructors:

public InitHashMap() {
    super();
}

public InitHashMap( int initialCapacity, float loadFactor ) {
    super( initialCapacity, loadFactor );
}

public InitHashMap( int initialCapacity ) {
    super( initialCapacity );
}

public InitHashMap( Map<? extends K, ? extends V> map ) {
    super( map );
}

and add an additional constructor that's inspired by Aerthel's answer but is generic by using Object... and <K, V> types:

public InitHashMap( final Object... keyValuePairs ) {

    if ( keyValuePairs.length % 2 != 0 )
        throw new IllegalArgumentException( "Uneven number of arguments." );

    K key = null;
    int i = -1;

    for ( final Object keyOrValue : keyValuePairs )
        switch ( ++i % 2 ) {
            case 0:  // key
                if ( keyOrValue == null )
                    throw new IllegalArgumentException( "Key[" + (i >>> 1) + "] is <null>." );
                key = (K) keyOrValue;
                continue;
            case 1:  // value
                put( key, (V) keyOrValue );
        }
}

Run

public static void main( final String[] args ) {

    final Map<Integer, String> map = new InitHashMap<>( 1, "First", 2, "Second", 3, "Third" );
    System.out.println( map );
}

Output

{1=First, 2=Second, 3=Third}

You also can extend the Map interface likewise:

public interface InitMap<K, V> extends Map<K, V> {

    static <K, V> Map<K, V> of( final Object... keyValuePairs ) {

        if ( keyValuePairs.length % 2 != 0 )
            throw new IllegalArgumentException( "Uneven number of arguments." );

        final Map<K, V> map = new HashMap<>( keyValuePairs.length >>> 1, .75f );
        K key = null;
        int i = -1;

        for ( final Object keyOrValue : keyValuePairs )
            switch ( ++i % 2 ) {
                case 0: // key
                    if ( keyOrValue == null )
                        throw new IllegalArgumentException( "Key[" + (i >>> 1) + "] is <null>." );
                    key = (K) keyOrValue;
                    continue;
                case 1: // value
                    map.put( key, (V) keyOrValue );
            }
        return map;
    }
}

Run

public static void main( final String[] args ) {

    System.out.println( InitMap.of( 1, "First", 2, "Second", 3, "Third" ) );
}

Output

{1=First, 2=Second, 3=Third}
4
  • Any reason why you chose to do >>> 1 instead of % 2, apart from making it intentionally confusing?
    – Frontear
    Oct 18, 2019 at 0:56
  • @Frontear There are even more than one: 1) If the compiler/JIT doesn't optimize % 2 accordingly–which I don't know–shift operations are much more performant than math operations since they are implemented hard-wired in any CPU I'm aware of. 2) There are only rare cases where shift operations can be used in high-level languages, so I use them whenever I can to remind myself– and others who read my code–that they exist. 3) It increases the lifetime of the other operators due to reduced wearout [just kidding, of course, but I wanted it to be three :] Oct 18, 2019 at 7:47
  • Sounds like something that the compiler should be caring for, no? Adding shift operations into places where a more simplified operation could be shown just leads to misunderstood code.
    – Frontear
    Oct 18, 2019 at 11:59
  • @Frontear SHOULD is not MUST. Shift operations are way simpler than math ops (from a tech POV behind the scenes where 0, 1 and their positions in a combination thereof matter). I agree, they aren't used in high-level language programs that often. Have you ever coded in ASM or machine code? I have and therefore these operations are very familiar to me and I use them if there's the chance to do so. It's OK for me if you don't like and dont' use them. I can live with both. Are you trying to convince me to jettison my knowledge because others don't have that? Oct 18, 2019 at 22:15
1

Java 8 with streams:

    private static final Map<String, TemplateOpts> templates = new HashMap<>();

    static {
        Arrays.stream(new String[][]{
                {CUSTOMER_CSV, "Plantilla cliente", "csv"}
        }).forEach(f -> templates.put(f[0], new TemplateOpts(f[1], f[2])));
    }

It can be also a Object[][] to put anything inside and map it in the forEach loop




Separation of concerns implementation - with method abstraction & generics to decouple things:

    private static final Map<String, TemplateOpts> templates = mapFromArr(
        new String[][]{
                {CUSTOMER_CSV, "Plantilla cliente", "csv"}
        }, arr-> arr[0], arr-> new TemplateOpts(arr[1], arr[2]));

    private static <K,V> Map<K,V> mapFromArr(Object[][] arr, Function<Object[],K> keyFnc, Function<Object[],V> valueFnc) {
        Map<K,V> res = new HashMap<>();
        Arrays.stream(arr).forEach(subArr ->
            res.put(keyFnc.apply(subArr), valueFnc.appy(subArr));
        return res;
    }

0

The second method could invoke protected methods if needed. This can be useful for initializing classes which are immutable after construction.

0

I like the anonymous class syntax; it's just less code. However, one major con I have found is that you won't be able to serialize that object via remoting. You will get an exception about not being able to find the anonymous class on the remote side.

1
  • You could create the map using the double-brace idiom, and then copy it. Feb 3, 2009 at 21:26
0

I've done something a bit different. Not the best, but it works for me. Maybe it could be "genericized".

private static final Object[][] ENTRIES =
{
  {new Integer(1), "one"},
  {new Integer(2), "two"},
};
private static final Map myMap = newMap(ENTRIES);

private static Map newMap(Object[][] entries)
{
  Map map = new HashMap();

  for (int x = 0; x < entries.length; x++)
  {
    Object[] entry = entries[x];

    map.put(entry[0], entry[1]);
  }

  return map;
}
1
  • The problem with this approach is that it is not type-safe at all (and if you are using Java, you want type safety). You can put any kind of objects as keys and values. It only really works for a Map<Object, Object> (though one could use an analogous approach with an String[][] for Map<String,String> and similar for other Map<T,T>. It doesn't work for Maps where the key-type is different from the value type. Jan 29, 2014 at 20:31
0

In Java 8, procedural approach can also be wrapped in Supplier:

Map<String,String> m = ((Supplier<Map<String,String>>)(() -> {
    Map<String,String> result = new HashMap<>();
    result.put("foo","hoo");
    ...
    return result;
)).get();

It's only hypothetical way but can come handy if you really need one-liner.

0

If you can use a String representation of your data this is an option too in Java 8:

static Map<Integer, String> MAP = Stream.of(
        "1=one",
        "2=two"
).collect(Collectors.toMap(k -> Integer.parseInt(k.split("=")[0]), v -> v.split("=")[1]));
0

There are some good answers here, but I do want to offer one more.

Create your own static method to create and initialize a Map. I have my own CollectionUtils class in a package that I use across projects with various utilities that I use regularly that are easy for me to write and avoids the need for a dependency on some larger library.

Here's my newMap method:

public class CollectionUtils {
    public static Map newMap(Object... keyValuePairs) {
        Map map = new HashMap();
        if ( keyValuePairs.length % 2 == 1 ) throw new IllegalArgumentException("Must have even number of arguments");
        for ( int i=0; i<keyValuePairs.length; i+=2 ) {
            map.put(keyValuePairs[i], keyValuePairs[i + 1]);
        }
        return map;
    }
}

Usage:

import static CollectionUtils.newMap;
// ...
Map aMap = newMap("key1", 1.23, "key2", 2.34);
Map bMap = newMap(objKey1, objVal1, objKey2, objVal2, objKey3, objVal3);
// etc...

It doesn't make use of generics, but you can typecast the map as you wish (just be sure you typecast it correctly!)

Map<String,Double> aMap = (Map<String,Double>)newMap("key1", 1.23, "key2", 2.34);
0

Even with Guava's nice ImmutableMap class, sometimes I'd like to build a mutable map fluently. Finding myself wanting to avoid static blocks & the anonymous subtype thing, when Java 8 came along I wrote a tiny library to help called Fluent.

// simple usage, assuming someMap is a Map<String, String> already declared
Map<String, String> example = new Fluent.HashMap<String, String>()
    .append("key1", "val1")
    .append("key2", "val2")
    .appendAll(someMap);

With Java 8 interface defaulting I could implement the Fluent.Map methods for all standard Java Map implementations (ie HashMap, ConcurrentSkipListMap, ... etc) without tedious repetition.

Unmodifiable maps are simple too.

Map<String, Integer> immutable = new Fluent.LinkedHashMap<String, Integer>()
    .append("one", 1)
    .append("two", 2)
    .append("three", 3)
    .unmodifiable();

See https://github.com/alexheretic/fluent for source, documentation and examples.

0

Now that Java 8 is out, this question warrants revisiting. I took a stab at it -- looks like maybe you can exploit lambda expression syntax to get a pretty nice and concise (but type-safe) map literal syntax that looks like this:

Map<String,Object> myMap = hashMap(
    bob -> 5,
    TheGimp -> 8,
    incredibleKoolAid -> "James Taylor",
    heyArnold -> new Date()
);

Map<String,Integer> typesafeMap = treeMap(
    a -> 5,
    bee -> 8,
    sea -> 13
    deep -> 21
);

Untested sample code at https://gist.github.com/galdosd/10823529 Would be curious about the opinions of others on this (it's mildly evil...)

1
  • 1
    Note: Turns out, after actually trying it later... the above does not actually work. I tried it with a few different javac flags and was unable to get the name used for the parameter to be retained. May 7, 2014 at 20:21
0

Here is the code by abacus-common

Map<Integer, String> map = N.asMap(1, "one", 2, "two");
// Or for Immutable map 
ImmutableMap<Integer, String> = ImmutableMap.of(1, "one", 2, "two");

Declaration: I'm the developer of abacus-common.

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